Chapter 11 The Muscular System Muscle Attachment Sites: Origin
Transcription
Chapter 11 The Muscular System Muscle Attachment Sites: Origin
Chapter 11 The Muscular System • Skeletal muscle major groupings • How movements occur at specific joints • Learn the origin, insertion, function and innervation of all major muscles • Important to allied health care and physical rehabilitation students 10-1 Muscle Attachment Sites: Origin and Insertion • Skeletal muscles shorten & pull on the bones they are attached to • Origin is the bone that does not move when muscle shortens (normally proximal) • Insertion is the movable bone (some 2 joint muscles) • Fleshy portion of the muscle in between attachment sites = belly 10-2 Muscular System 3 1 Tenosynovitis • Inflammation of tendon and associated connective tissues at certain joints – wrist, elbows and shoulder commonly affected • Pain associated with movement • Causes – trauma, strain or excessive exercise 10-4 Lever Systems and Leverage • Muscle acts on rigid rod (bone) that moves around a fixed point called a fulcrum • Resistance is weight of body part & perhaps an object • Effort or load is work done by muscle contraction • Mechanical advantage – the muscle whose attachment is farther from the joint will produce the most force – the muscle attaching closer to the joint has the greater range of motion and the faster the speed it can produce 10-5 First - Class Lever • Can produce mechanical advantage or not depending on location of effort & resistance – if effort is further from fulcrum than resistance, then a strong resistance can be moved • Head resting on vertebral column – weight of face is the resistance – joint between skull & atlas is fulcrum – posterior neck muscles provide effort 10-6 2 Second - Class Lever • Similar to a wheelbarrow • Always produce mechanical advantage – resistance is always closer to fulcrum than the effort • Sacrifice of speed for force • Raising up on your toes – resistance is body weight – fulcrum is ball of foot – effort is contraction of calf muscles which pull heel up off of floor 10-7 Third - Class Lever • Most common levers in the body • Always produce a mechanical disadvantage – effort is always closer to fulcrum than resistance • Favors speed and range of motion over force • Flexor muscles at the elbow – resistance is weight in hand – fulcrum is elbow joint – effort is contraction of biceps brachii muscle 10-8 Types of levers (Fig. 11.2) Copyright 2009, John Wiley & Sons, Inc. 3 Fascicle Arrangements • A contracting muscle shortens to about 70% of its length • Fascicular arrangement represents a compromise between force of contraction (power) and range of motion – muscles with longer fibers have a greater range of motion – a short fiber can contract as forcefully as a long one. 10-10 Parallel Muscular System 11 Fan Muscular System 12 4 Pennate Muscular System 13 Bipennate Muscular System 14 Fusiform Muscular System 15 5 Muscular System 16 Muscular System 17 Muscular System 18 6 Muscular System 19 Muscular System 20 Muscular System 21 7 • Sphincter = Ring of muscle surrounding tubular organ Smooth or skeletal Muscular System 22 Coordination Within Muscle Groups • Most movement is the result of several muscle working at the same time • Most muscles are arranged in opposing pairs at joints – prime mover or agonist contracts to cause the desired action – antagonist stretches and yields to prime mover – synergists contract to stabilize nearby joints – fixators stabilize the origin of the prime mover • scapula held steady so deltoid can raise arm 10-23 How Skeletal Muscle are Named • Direction the muscle fibers run • Size, shape, action, number of origins or locations • Examples from Table 11.2 – triceps brachii -- 3 sites of origin – quadratus femoris -- square shape – serratus anterior -- saw-toothed edge 10-24 8 Muscles of Facial Expression • Arise from skull & insert onto skin • Encircle eyes, nose & mouth • Express emotions • Facial Nerve (VII) • Bell’s palsy = facial paralysis due 10-25 Muscles of Facial Expression • Orbicularis oculi closes the eye • Levator palpebrae superioris opens the eye • Orbicularis oris puckers the mouth • Buccinator forms the muscular portion of the cheek & assists in whistling, blowing, sucking & chewing 10-26 Extrinsic Muscles of the Eyeballs • Extrinsic muscles insert onto white of eye • Fastest contracting & most precisely controlled • Cranial nerves 3, 4 & 6 innervate the six muscles – 4 Rectus muscles & 2 obliques • Intrinsic muscles are found within the eyeball • Levator palpebrae superioris raises eyelid 10-27 9 Muscles that Move the Mandible • Masseter, temporalis & pterygoids • Arise from skull & insert on mandible • Cranial nerve V (trigeminal nerve) • Protracts, elevates or retracts mandible – Temporalis & Masseter elevate the mandible (biting) – temporalis retracts 10-28 Jaw Muscles -- Deep Dissection • Lateral pterygoid protracts mandible – sphenoid bone to condyle of mandible • Medial pterygoid elevates & protracts mandible – sphenoid bone to angle of mandible • Together move jaw side to side to grind food. 10-29 Muscles that Move the Tongue • 4 extrinsic mm arise elsewhere, but insert into tongue – Genioglossus • from inside tip of mandible – Styloglossus • from styloid process – Palatoglossus • from hard palate – Hyoglossus • from hyoid bone • Together move tongue in various directions • Intubation is necessary during anesthesia since Genioglossus relaxes & tongue falls posteriorly blocking airway 10-30 10 Muscles of the Floor of the Oral Cavity • Suprahyoid muscles lie superior to hyoid bone. – Digastric m. extends from mandible to mastoid process • used to open the mouth – Mylohyoid m. extends from hyoid to mandible • supports floor of mouth & elevates hyoid bone during swallowing – Stylohyoid & Geniohyoid elevate the hyoid during swallowing 10-31 Muscles that Move the Head • Sternocleidomastoid muscle – – – – arises from sternum & clavicle & inserts onto mastoid process of skull innervated by cranial nerve XI (spinal accessory) contraction of both flexes the cervical vertebrae & extends head contraction of one, laterally flexes the neck and rotates face in opposite direction 10-32 Muscles of Abdominal Wall • Notice 4 layers of muscle in the abdominal wall 10-33 11 Muscles of Abdominal Wall • 4 pairs of sheetlike muscles – rectus abdominis = vertically oriented – external & internal obliques and transverses abdominis • wrap around body to form anterior body wall • form rectus sheath and linea alba • Inguinal ligament from anterior superior iliac spine to upper surface of body of pubis • Inguinal canal = passageway from pelvis through body wall musculature opening seen as superficial inguinal ring • Inguinal hernia = rupture or separation of abdominal wall allowing protrusion of part of the small intestine (more common in males) 10-34 Transverse Section of Body Wall • Rectus sheath formed from connective tissue aponeuroses of other abdominal muscles as they insert in the midline connective tissue called the linea alba 10-35 Muscles Used in Breathing • Breathing requires a change in size of the thorax • During inspiration, thoracic cavity increases in size – external intercostal lift the ribs – diaphragm contracts & dome is flattened • During expiration, thoracic cavity decreases in size – internal intercostal mm used in forced expiration Quadratus lumborum fills in space between 12th rib & iliac crest to create posterior body wall • Diaphragm is innervated by phrenic nerve (C3-C5) but intercostals innervated by thoracic spinal nerves (T2-T12) 10-36 12 Female Pelvic Floor & Perineum • Both the pelvic diaphragm ( coccygeus & levator ani) and the muscles of the perineum fill in the gap between the hip bones – supports pelvic viscera & resists increased abdominal pressure during defecation, urination, coughing, vomiting, etc – pierced by anal canal, vagina & urethra in females – levator ani may be damaged during episiotomy during childbirth (urinary incontinence during coughing 10-37 Muscles of Male Perineum • Perineum contains more superficial layer of muscle – urogenital triangle contains external genitals • muscle arrangement forms urogenital diaphragm assists in urination (external urethral sphincter) and ejaculation (ischiocavernosus, bulbospongiosus) – anal triangle contains anus • external anal sphincter 10-38 Stabilizing the Pectoral Girdle • Anterior thoracic muscles – Subclavius extends from 1st rib to clavicle – Pectoralis minor extends from ribs to coracoid process – Serratus anterior extends from ribs to inner surface of scapula • Posterior thoracic muscle – Trapezius extends from skull & vertebrae to clavicle & scapula – Levator scapulae extends from cervical vertebrae to scapula – Rhomboideus extends from thoracic vertebrae to vertebral border of scapula 10-39 13 Axial Muscles that Move the Arm • Pectoralis major & Latissimus dorsi extend from body wall to humerus. 10-40 Muscles that Move the Arm • Deltoid arises from acromion & spine of scapula & inserts on arm – abducts, flexes & extends arm • Rotator cuff muscles extend from scapula posterior to shoulder joint to attach to the humerus – supraspinatus & infraspinatus : above & below spine of scapula – subscapularis on inner surface of scapula 10-41 Flexors of the Forearm (elbow) • Cross anterior surface of elbow joint & form flexor muscle compartment • Biceps brachii – scapula to radial tuberosity – flexes shoulder and elbow & supinates hand • Brachialis – humerus to ulna – flexion of elbow • Brachioradialis – humerus to radius – flexes elbow 10-42 14 Extensors of the Forearm (elbow) • Cross posterior surface of elbow joint & forms extensor muscle compartment • Triceps brachii – long head arises scapula – medial & lateral heads from humerus – inserts on ulna – extends elbow & shoulder joints • Anconeus – assists triceps brachii in extending the elbow 10-43 Cross-Section Through Forearm • If I am looking down onto this section is it from right or left arm? 10-44 Muscle that Pronate & Flex • Pronator teres – medial epicondyle to radius so contraction turns palm of hand down towards floor • Flexor carpi muscles – radialis – ulnaris • Flexor digitorum muscles – superficialis – profundus • Flexor pollicis 10-45 15 Muscles that Supinate & Extend • Supinator – lateral epicondyle of humerus to radius – supinates hand • Extensors of wrist and fingers – extensor carpi – extensor digitorum – extensor pollicis – extensor indicis 10-46 Retinaculum • Tough connective tissue band that helps hold tendons in place • Extensor & Flexor retinaculum cross wrist region attaching from bone to bone (carpal tunnel syndrome = painful compression of median nerve due to narrowing passageway under flexor retinaculum 10-47 Intrinsic Muscles of the Hand • • • • • Origins & insertions are within the hand Help move the digits Thenar muscles move the thumb Hypothenar muscles move the little finger Opposition, flexion, extension, abduction & adduction 10-48 16 Muscles that Move the Vertebrae • Quite complex due to overlap • Erector spinae fibers run longitudinally – 3 groupings • spinalis • iliocostalis • longissimus – extend vertebral column • Smaller, deeper muscles – transversospinalis group • semispinalis, multifidis & rotatores – run from transverse process to dorsal spine of vertebrae above & help rotate vertebrae 10-49 Scalene Muscle Group • Attach cervical vertebrae to uppermost ribs • Flex, laterally flex & rotate the head 10-50 Muscles Crossing the Hip Joint • Iliopsoas flexes hip joint – arises lumbar vertebrae & ilium – inserts on lesser trochanter • Quadriceps femoris has 4 heads – Rectus femoris crosses hip – 3 heads arise from femur – all act to extend the knee • Adductor muscles – bring legs together – cross hip joint medially – see next picture • Pulled groin muscle – result of quick sprint activity – stretching or tearing of iliopsoas or adductor muscle 10-51 17 Adductor Muscles of the Thigh • Adductor group of muscle extends from pelvis to linea aspera on posterior surface of femur – – – – – pectineus adductor longus adductor brevis gracilis adductor magnus (hip extensor) 10-52 Muscles of the Butt & Thigh • Gluteus muscles – maximus, medius & minimus – maximus extends hip – medius & minimus abduct • Deeper muscles laterally rotate femur • Hamstring muscles – – – – semimembranosus (medial) semitendinosus (medial) biceps femoris (lateral) extend hip & flex knee • Pulled hamstring – tear of origin of muscles 10-53 from ischial tuberosity Cross-Section through Thigh • 3 compartments of muscle with unique innervation – anterior compartment is quadriceps femoris innervated by femoral nerve – medial compartment is adductors innervated by obturator nerve – posterior compartment is hamstrings innervated by sciatic nerve 10-54 18 Muscles of the Calf (posterior leg) • 3 muscles insert onto calcaneus – gastrocnemius arises femur • flexes knee and ankle – plantaris & soleus arise from leg • flexes ankle • Deeper mm arise from tibia or fibula – cross ankle joint to insert into foot • tibialis posterior • flexor digitorum longus • flexor hallucis longus – flexing ankle joint & toes 10-55 Muscles of the Leg and Foot • Anterior compartment of leg – extensors of ankle & toes • tibialis anterior • extensor digitorum longus • extensor hallucis longus – tendons pass under retinaculum • Shinsplits syndrome – pain or soreness on anterior tibia – running on hard surfaces • Lateral compartment of leg – peroneus mm plantarflex the foot – tendons pass posteriorly to axis of ankle joint and into plantar foot 10-56 Muscles of the Plantar Foot • Intrinsic muscles – arise & insert in foot • 4 layers of muscles – get shorter as go into deeper layers • Flex, adduct & abduct toes • Digiti minimi muscles move little toe • Hallucis muscles move big toe • Plantar fasciitis (painful heel syndrome) chronic irritation of plantar aponeurosis at calcaneus – improper shoes & weight gain 10-57 19 • Running injuries • Compartment syndrome 10-58 20